International Oenological CODEX

Download document

Reagents and titrated solutions

COEI-3-REASOL List of reagents and titrated solutions[1]

Mention(R)[2]

Acetic

crystallisable acid 98-100%

diluted acid (10% m/m)

neutral lead acetate (see Lead)

potassium acetate (see Potassium)

sodium acetate (see Sodium)

uranyl and magnesium acetate

Starch

Paste (aqueous solution at 5 g/l)

Ammonium

concentrated hydroxide solution (20% NH3, d(20/4)=0.92

diluted hydroxide solution (10 g concentrated solution/100 g)

Aqueous hydroxide solution about 5 M

chloride in solution at 20% (m/m)

citrate in solution

oxalate in solution at 4% (m/m)

persulphate in solution at 15% (m/m)

Aniline

reagent

Silver

Nitrate (99.5%)

nitrate solutions at 5% (m/m) (R1)

Nitrate solution at 1% (m/m) (R2)

ammonia nitrate solution

Barium

BaCl2.2H2O solution at 10% (m/m) chloride

Bore

boric acid, H3BO3 99%

concentrated boric acid solution at 4% (m/v)

Bromine

Br2 (d(20/4)=3.12)

bromine water

Bromophenol

tetrabromophenolsulfonephtaleine (blue) alcoholic solution (blue)

Bromothymol

dibromothymolsulfonephtaleine (blue) alcoholic solution (blue)

Bromocresol

tetrabromo-m-cresol-sulfonephtaleine (green)

(green) alcoholic solution

methyl red and (green) in solution

(mixed indicator)

Calcium

acetate aqueous solution at 25% (m/v)

chloride saturated solution

chloride solution at 20% (m/v)

hydroxide (milk of lime)

saturated sulphate solution

Mineralisation catalyser

 

Chloramine T

solution at 1% (m/v)

Chlorine

concentrated hydrochloric acid at 35%

(d(20/4)=1.19)

hydrochloric acid diluted at 30% (v/v)

hydrochloric acid diluted at 10% (m/m)

hydrochloric acid diluted at 10% (v/v)

potassium dichromate (see Potassium)

Chrome

potassium dichromate (see Potassium)

Chromotropic acid

sodium salt

sodium salt solution

Citric acid

Monohydrated 99%

aqueous solution at 21% (m/m)

aqueous solution at 20% (m/v)

aqueous solution at 10% (m/v)

aqueous solution at 5% (m/v)

aqueous solution 0.003 M

hydrochloric solution

solution adjusted to pH 3

Cobalt

chloride CoCl2.6H20

aqueous solution at 5% (m/m)

Copper

sulphate CuSO4.5H2O

sulphate solution at 1 g of copper per litre

sulphate solution at 0.01 g of copper per litre

copper sulphate ammonia solution (II)

alkaline copper reagent

Dichlorophenolindo
phenol

sodium salt of 2,6-dichlooro-N-(4-hydroxyphenyl)-1,4-benzoquinone monoimine dihydrate

aqueous solution at 0.5 g per litre

Diphenylcarbazide

1,5-diphenylcarbonodihydrazide at 0.5 g per litre of alcoholic solution at 95% vol.

Dithizone

1,5-diphenylthiocarbazone

solution at 0.5 g/l in chloroform

extemporaneous preparation

Iron

iron sulphate (II) FeSO4.7H2O 99%

iron sulphate (II) solution at 5% (m/m)

iron sulphate (II) and ammonium

Fe(NH4)2(SO4)2.6H2O 98.5%

iron sulphate (II) solution and ammonium at 10% (m/m)

iron sulphate (III) Fe2(SO4)3.7H2O

solution at 0.01 g of iron (III) per litre

Formaldehyde

aqueous solution at 35% (m/m)

Basic fuchsine

Mixture of rosaniline hydrochloride and

pararosaniline hydrochloride

Solution bleached by sulphur dioxide

Hydrazine

dihydrochloride aqueous solution

Hydrogen peroxide

concerntrated solution at 30% (m/m)

(=110 volumes)

diluted solution 3% (m/m) (10 vol.)

Iodine

99.5%

iodine solution

Sodium indigo-sulphonate

(see sodium)

Mixed indicator

(see methyl red)

Magnesium

chloride MgCl2.6H2O 99%

magnesian mixture

Mercury

mercury oxide (II), yellow mercuric

oxide 99%

mercury sulphate (II) solution

Metaphenylene-diamine

(see m-phenylenediamine)

Methyl (red)

(see red methyl)

Methyl orange

sodium 4(dimethylamino)azobenzene-4-sulfonate.

Methyl orange alcoholic solution at 1% (m/v)

Molybdenum

reagent (see Nitric)

Naphthol

β-naphthol (2-naphtol)

solution at 5% (m/m)

Nitric

concentrated acid 63%

acid diluted at 10% (m/m)

nitromolybdic reagent

nitro-vanadomolybdic reagent

lead nitrate (see Lead)

Eriochrome black T

Biting black 11

solution at 0.2% (m/v) in triethanolamine

Oxalic acid

acid C2O4H2.2 H2O 99%

aqueous solution at 5% (m/m)

m-Phenylenediamine

dihydrochloride C6H8N2.3 HCl 99%

Phenol (red)

(see phenol red)

Phenolphtalein

phenolphtalein solution at 1% in alcohol (m/v)

Phosphorus

concentrated phosphoric acid (orthophosporic acid) 85% d(20/4)=1.7

Diluted solution of phosphoric acid at 50% (m/m)

Diluted solution of phosphoric acid at 25% (m/v)

Dihydrogenophosphate (see Potassium)

Lead

neutral lead acetate C4H6O4Pb.3H2O

aqueous solution at 10% (m/m) (in water free from carbon dioxide)

nitrate Pb(NO3)2 99%

lead nitrate aqueous solution at 1 g of lead per litre

lead nitrate aqueous solution at 0.01 g of lead per litre

Potassium

acetate C2H3KO2 99%

aqueous solution at 5% (m/m)

anhydrosulphite K2S2O5 (disulphite) 94%

free from selenium

potassium anhydrosulfite aqueous solution at 2% (m/m)

cyanide KCN 98%

aqueous solution at 10 g per 100 ml

potassium cyanide aqueous solution at 1 mg of hydrocyanic acid per litre

dichromate K2Cr2O7 99%

aqueous solution at 10% (m/m)

aqueous solution at 1 g of chromium per litre

aqueous solution at 0.01 g of chromium per litre

dihydrogenophosphate H2KPO4 99%

aqueous solution at 0.05 g of phosphorous per litre

hexacyanoferrate (II) K4Fe(CN)6.3 H2O 98%

aqueous solution at 5% (m/m)

hydroxide KOH 85%

aqueous solution at 40% (m/m); d(20/4) = 1.38

iodide KI 99%

iodine potassium iodide solution

permanganate KMn04 99%

aqueous solution at 5% (m/m)

aqueous solution at 3% (m/m)

aqueous solution at 2% (m/m)

aqueous solution at 1% (m/m)

aqueous solution at 0.5% (m/m)

aqueous solution at 0.2% (m/m)

potassium permanganate phosphoric solution

saturated aqueous solution

thiocyanate KSCN 99%

aqueous solution at 5% (m/m)

Pyridine-pyrazolone

reagent

Quinine

sulphate C40H48N4O4.H2SO4.2 H2O 99%

quinine sulphate sulphuric solution at 0.1 mg per litre of sulphuric acid 0.05 M

Rosaniline

hydrochloride (see fuchsine)

aqueous solution at 0.1 g per 100 ml

Methyl red

acid 4-dimethylamino-2-phenylazobenzoic

red methyl alcoholic solution

methyl red mixed indicator

Phenol red

phenolsulfonephtaleine 98%

phenol red solution

Selenium

dioxide SeO2 99%

aqueous solution at 100 mg of selenium per litre

Sodium

acetate C2H3NaO2.3 H2O

aqueous solution at 10% (m/m)

borate (tetraborate) Na2B4O7.10 H2O 99%

saturated aqueous solution

decahydrate carbonate Na2CO3.10 H2O 99%

aqueous solution at 25% (m/m)

diethyldithiocarbamate C5H10NS2Na.3 H2O 99%

alcoholic solution at 1% (m/v)

ethylenediaminetetracetate (disodic edetate) C10H14N2O8Na2.2 H2O 98.5%

aqueous solution 0.01 M

fluoride NaF 98.5 %

aqueous solution at 4% (m/m)

concentrated hydroxide solution

(caustic soda) at 30% (m/m); d(20/4)=1.33

diluted aqueous solution of sodium hydroxide at 10% (m/m)

hydrogenophosphate (disodic dihydrate phosphate) HNa2PO4.2 H2O 99.5%

aqueous solution at 10% (m/m)

pyrophosphate Na4P2O7.10 H2O

(diphosphate decahydrate tetrasodium) 98%

aqueous solution at 1% (m/m)

thiosulphate Na2S2O3.5 H2O 99%

aqueous solution at 25% (m/v)

disodic indigo-sulphonate (see indigo carmine)

indigo carmine solution

Hydrogen sulphide

saturated aqueous solution acid

aqueous acid solution at 1 g of sulphur per litre

aqueous acid solution at 0.01 g of sulphur per litre

Sulforesorcinic

reagent

Sulphuric

concentrated acid 95% d(20/4)=1.83

concentrated acid 97% (m/m)

aqueous solution at 25% (m/m)

aqueous solution diluted at 10% (m/m)

aqueous solution diluted at 5% (m/m)

acid free from nitrogen

Buffers

purified acetate (search for zinc)

ammoniac

pH 7.5

Tannin

definition

aqueous solution at 2% (m/m)

aqueous solution at 4% (m/v)

aqueous solution at 10% (m/m)

Thioacetamide

reagent

Uranyl

nitrate UO2(NO3)2.6 H2O 99%

aqueous solution at 4% (m/m)

uranyl acetate UO2(CH3COO)2.2 H2O 99%

magnesium and uranyl acetate and acetate solution

Bromocresol green

(see Bromocresol)

Bromocresol green and methyl red

(see Bromocresol)

Zinc

Solution 1 mg per litre

Reagents and titrated solutions

Crystallisable acetic (acid)

ρ20= 1.051; contains as a minimum 98.0% (m/m) of C2H4O2.

Diluted acetic (acid)

Aqueous solution containing about 10 g of acetic acid in 100 g of reagent.

ρ20= 1.0125 approximately.

Starch (paste) at 0.5% (m/v)

In a mortar, grind 2.5 g of soluble starch and 10 mg mercury iodide (II) with the necessary amount of water in order to obtain a fluid slurry. Introduce this in 500 ml of boiling water that is maintained 10 minutes. The liquid obtained is clear. Filter if necessary.

Concentrated ammonium hydroxide solution

ρ20= 0.922.

Concentrated aqueous solution of ammonia gas containing about 20 g of ammonia (NH3) in 100 g of reagent.

Diluted ammonium hydroxide solution

Aqueous solution of ammonia gas containing about 10 g of ammonia (NH3) in 100 g of reagent.

ρ20= 0.959 approximately.

Ammonium (chloride) in solution

Aqueous solution containing 20 g of ammonium chloride in 100 g of reagent.

Ammonium (citrate) in solution

Slowly pour 500 ml of concentrated ammonium hydroxide solution (R) in 400 g of citric acid in a 1000 ml graduated flask. The mass is heated and the dissolution is carried out. After cooling, complete the volume of 1000 ml with concentrated ammonium hydroxide (R).

Ammonium (hydroxide) in solution about 5 M

Dilute 460 ml of concentrated ammonium hydroxide (ρ20= 0.922) with a sufficient amount of water to obtain 1 l.

Ammonium (oxalate) in solution at 4% (m/m)

Aqueous solution containing 4 g of diammonium oxalate in 100 g of solution.

Ammonium (persulphate) in solution at 15% (m/m)

Aqueous solution containing 15 g of ammonium persulphate for 100 g of solution.

Aniline

C6H5NH2 = 93.1.

The product used as a reagent must be clear and barely yellow.

ρ20= 1.020 to 1.023.

During distillation, 95% as a minimum must pass between 183°C and 185°C.

Silver (nitrate) in solution at 5% (m/m)

Aqueous solution containing 5 g of desiccated silver nitrate for 100 g of reagent.

Silver (nitrate) in solution at 1% (m/m)

Aqueous solution containing 1 g of desiccated silver nitrate for 100 g of reagent.

Silver (nitrate) in ammonia solution

Ammonia solution prepared with 10 g of desiccated silver nitrate for about 100 g of reagent.

In 30 g of distilled water, dissolve 5 g of desiccated silver nitrate. Pour into this solution, drop by drop with caution, the diluted ammonium hydroxide solution (R) until nearly total redissolution of the precipitated silver oxide. Complete to 50 ml, filter and store the reagent away from light in a flask with a glass stopper.

Barium (chloride) in solution at 10% (m/m)

Aqueous solution containing 10 g of BaCl2.2H2O, for 100 g of reagent.

Concentrated boric (acid) in solution at 40 g per litre

This acid must be pure, entirely soluble in water (insoluble residue below 50 mg for 1 kg) and must not turn brown during incineration (absence of organic matters).

The aqueous solution at 40 g for 1 l of solution must be neutral to methyl orange. The orange coloration of this indicator must be obtained with less than 3 ml of hydrochloric acid solution 0.1 M for 1 l of this solution at 40 g per litre.

Boric acid that does not respond to these test trials can be purified by hot filtration of a boiling, saturated boric acid solution (at about 350 g per litre of water) and crystallisation by cooling.

Prepare a solution of 40 g of this concentrated acid for 1 l of solution.

Bromine (water)

Bromine saturated aqueous solution containing about 3.5 g of bromine for 100 ml at 20°C.

Bromophenol blue in solution

Alcohol solution at 95% vol. containing 0.04 g of bromophenol blue in 100 ml in total.

Bromothymol blue in solution

Alcohol solution at 95% vol. containing 0.04 g of bromothymol blue in 100 ml in total.

Calcium (acetate) at 25% (m/v)

Calcium acetate aqueous solution at 25 g for 100 ml.

 

Calcium (acetate) in solution pH 6

In a cylindrical vase place:

calcium carbonate

10 g

acetic acid

12 g

water

100 ml

Heat until dissolution, adjust the pH to 6 and adjust to 1 l.

Calcium (chloride) in saturated solution

It contains about 80 g of CaCl2.6H2O for 100 g of solution.

Calcium (chloride) in solution at 20% (m/v)

Aqueous solution containing 20 g of crystallised calcium chloride CaCl2.6H2O in 100 ml of reagent.

Calcium hydroxide (milk of lime) at 10% (m/m)

The calcium hydroxide suspension (milk of lime) is obtained by treating 10 g of calcium oxide (quicklime) with 90 g approximately of boiling water.

Calcium (sulphate) in saturated solution

Saturated aqueous solution; it contains about 0.2 g of CaSO4 for 100 g.

Mineralisation catalyser

Pulverise and mix:

selenium

2.5 g

copper sulphate (II)

5 g

dipotassic sulphate

100 g

Chloramine T solution at 1% (m/v)

Aqueous solution containing 1 g of chloramine T (sodium salt of p-toluene N-chlorosulphanomide) for 100 ml of reagent.

Concentrated hydrochloric (acid)

Aqueous solution of hydrochloric acid (ρ20= 1.18 to 1.19) containing 35.5 to 37.25 g of hydrochloric acid (HCl) in 100 g or 100 ml.

Hydrochloric (acid) diluted at 30% (v/v)

Dilute 300 ml of concentrated hydrochloric acid (ρ20= 1.19) with a sufficient amount of water to obtain 1 l.

This solution contains about 13 g of HCl for 100 ml.

Hydrochloric (acid) diluted at 10% (m/m) (ρ20= 1.0489)

Aqueous solution containing 10 g of hydrochloric gas (HCl) in 100 g.

Hydrochloric (acid) diluted at 10% (v/v)

Aqueous solution of hydrochloric acid containing about 10 ml of concentrated hydrochloric acid (R) in 100 ml, i.e. about 3.6 g HCl for 100 ml.

 

Chromotropic (acid)

1.8-dihydroxy-3.6-naphtalene-1.6-disulphonic acid

(= 356.3).

White powder that turns brown in light, soluble in water. The disodium salt of this acid is generally used which is a yellow or light brown product and very soluble in water.

Chromotropic acid solution (sodium salt) at 0.05% (m/v)

Dissolve 60 mg of of sodium salt of chromotropic acid in about 80 ml of water, complete to 100 ml with water. To be used within 24 hours.

 

Citric (acid) in solution at 21% (m/m)

Aqueous solution at 21 g for 100 g.

Citric (acid) in solution at 20% (m/v)

Aqueous solution of citric acid at 20 g for 100 ml.

Citric (acid) in solution at 10% (m/v)

Aqueous solution of citric acid at 10 g for 100 ml.

Citric (acid) in solution at 5% (m/v)

Aqueous solution of citric acid at 5 g for 100 ml.

Citric (acid) in solution 0.033 M

Solution containing exactly one tenth of the equivalent of a gramme of monohydrated citric acid per litre (i.e. 7.003 g per litre).

Citric (acid) in hydrochloric solution

Dissolve 150 g of concentrated monohydrated citric acid in 800 ml of water; add 100 ml of concentrated hydrochloric acid and add volume to 1 l.

Citric (acid) in solution to 5 g per litre adjusted to pH 3

Dissolve 5 g of citric acid in 900 ml of water. Add 8 ml of the sodium hydroxide solution 1 M and adjust to 1 l.

Cobalt (chloride) in solution at 5% (m/m)

Solution containing 5 g of cobalt chloride CoCl2.6H2O in 100 g of reagent.

Copper (II) (sulphate) solution at 1 g and 0.01 g per litre

The aqueous solution at 1 g of copper per litre contains 3.9295 g of copper sulphate (CuSO4.5H2O) and 1 ml of concentrated sulphuric acid per litre. This solution is diluted to a hundredth to obtain the solution at 0.01 g of copper per litre.

Copper (sulphate) in ammonia solution

 

Copper sulphate Cu SO4.5H2O

5 g

Water

500 ml

Concentrated ammonium hydroxide (R)

300 ml

 

Dissolve the copper sulphate in water. Add the ammonium hydroxide and homogenise.

Alkaline copper (reagent)

The titrated alkaline copper reagent contains for 1000 ml:

Copper, Cu

4.454 g

It is obtained by mixing the two solutions:

a) Copper solution (II), (C)

Weigh exactly 35 g of copper sulphate (R) and introduce into a 1000 ml graduated flask with about 500 ml of distilled water and 5 ml of concentrated sulphuric acid (R). Shake to dissolve and complete to 20°C with distilled water until the graduated line. Mix.

b) Alkaline tartaric solution, (T)

Weigh 150 g of sodium and potassium L-tartrate (R) and introduce in a 1000 ml graduated flask containing about 500 ml of hot distilled water. Shake to dissolve. Allow to cool and add 300 ml of concentrated sodium hydroxide solution (R) non carbonated.

Complete to 20°C with distilled water the volume of 1000 ml of solution. Mix.

10 ml of the solution C with 10 ml of solution T are brought to the boil with 0.05 g of inverted sugar, 0.048 g of pure glucose and 0.0695 g of anhydrous lactose or 0.073 g of hydrated lactose.

2.6-dichlorophenolindophenol in solution

Dissolve 0.50 g of 2.6-dichlorophenolindophenol in 200 ml of water heated at 90°C. Allow to cool and complete to 1000 ml with water. Filter.

Diphenylcarbazide in solution

Solution of 0.50 g of diphenylcarbazide in 1 l of alcohol at 95% vol.

Peroxide in diluted solution

See Hydrogen (peroxide).

Iron (II) (sulphate) in solution at 5% (m/m)

Solution prepared extemporaneously with boiled distilled water containing 5 g of iron sulphate (II) FeSO4.7H2O in 100 g of reagent (air oxidises it quickly).

Iron (III) (sulphate) in saturated solution

Prepare a saturated solution of iron sulphate (III) Fe2(SO4)3 7H2O.

Iron (II) (and ammonium sulphate) in solution at 10% (m/m)

Aqueous solution containing 10 g of ammonium and iron sulphate (II) in 100 g of reagent.

Iron (III) (salt) in solution at 0.010 g of iron per litre

Dissolve 0.1 g of pure iron in 20 ml of water and 5 ml of concentrated H2SO4 (R). Heat, add 10 drops of concentrated HNO3 (R) and bring to the boil for 10 minutes to peroxidise the iron. Adjust the volume to 1 l. Dilute 1/10.

Formaldehyde in solution

Aqueous solution with 35% (m/m) of formaldehyde.

 

Fuchsine bleached by sulphurous acid

8 g of potassium anhydrosulphite are dissolved in 150 ml of distilled water; add 30 ml of basic fuchsine solution at 1 per 1000 (m/v) in alcohol at 95% vol. and 55 ml of hydrochloric acid 3 M. Complete to 250 ml with distilled water. Store in a yellow flask with an emery stopper.

Hydrazine (dichlorhydrate) in solution

 

Hydrazine dichlorhydrate

500 mg

Water

q.s.f. 100 ml

Dissolve the hydrazine dichlorhydrate in about 80 ml of water, then adjust the volume to 100 ml.

Reagent to be prepared extemporaneously.

Hydrogen (peroxide) in solution to 3 volumes

This solution contains 9.1 g of H2O2 per litre; it liberates 3 times its volume of oxygen by catalytic decomposition by MnO2 in an alkaline medium.

Iodine (solution)

Aqueous solution saturated with iodine.

Sodium indigo-sulphonate

Indigo-disulphonate sodium salt (improperly called indigo carmine): C16H8O8S2N2Na2

This product in solution at 10% (m/v) should turn yellow when oxidised by the potassium permanganate in a sulphuric environment; 50 ml of this solution requires 14 ml to 17 ml of potassium permanganate solution 0.02 M.

If, by permanganic oxidation, this solution does not turn yellow, it is advisable to purify the sodium indigo-sulphonate by the following process:

Put 10 g of sodium indigo-sulphonate in contact with 50 ml of concentrated sulphuric acid (R). After two days, add 100 ml of water; filter the day after. Reject the rusty-coloured filtrate. Take up the residue with 100 ml of water, reject again the filtrate. Dissolve the residue with 800 to 1000 ml of acidulated water and 5 ml of concentrated sulphuric acid (R).

Indigo carmine solution: dissolve 0.2 of indigo carmine in a mixture of 10 ml of hydrochloric acid (R) and 990 ml of sulphuric acid solution free of nitrogen (R) to 200 g per litre.

 

 

Magnesium (chloride) in solution 0.01 M

Dissolve 0.45 g of pure magnesium oxide MnO2 in the necessary quantity of diluted hydrochloric acid (R). Bring to a litre. Titrate this solution using a sodium ethylenediaminetetraacetate solution 0.01 M in the presence of eriochrome black T.

Magnesian (mixture)

Dissolve 82 g of magnesium chloride (MgCl2.6H2O) and 100 g of ammonium chloride in 800 ml of water. Add 400 ml concentrated ammonium hydroxide (20 = 0.92) (R). Mix.

Mercury (II) (sulphate) in acid solution

Aqueous solution and mercury sulphate acid (II) HgSO4. In a 200 ml graduated flask, introduce 10 g of yellow mercuric oxide, 120 ml of water and 75 g of concentrated sulphuric acid (R) (40 ml). After cooling, adjust the volume to 200 ml.

Metaphenilene-diamine (hydrochloride)

Grey-mauve amorphous powder: C6H8N2.2 HCl.

 

Methyl orange in solution

Solution prepared with alcohol at 90% vol. containing 1 g of methyl orange in 100 ml of reagent.

 

β-naphthol in solution at 5% (m/m)

Dissolve 5 g of β-naphthol in 40 ml of concentrated ammonium hydroxide solution (R) and adjust the volume to 100 ml with distilled water. Prepare extemporaneously.

Concentrated nitric (acid)

ρ20/4 = 1.39

Concentrated nitric acid contains about 63% of nitric acid (HNO3).

Diluted nitric (acid)

ρ20/4 = 1.056

Solution containing about 10 g of nitric acid (HNO3) in 100 g of reagent prepared with 15.8 g of nitric acid (11.35 ml) (20 = 1.39) at 63 g for 100 g and 84.2 g of water.

Nitromolybdic (reagent)

Dissolve 60 g of ammonium molybdate in 200 g of warm water. Filter if necessary. Slowly pour this solution in 720 g of diluted nitric acid while constantly shaking the latter. This diluted acid is obtained by mixing 370 g of concentrated nitric acid (R) with 350 g of water. Allow to stand 8 days. Adjust the volume to 1000 ml with distilled water. Filter or decanter.

This reagent, heated at 40°C, should not leave a deposit of precipitate.

Sensitivity: 25 µg of phosphorus for 5 ml.

Nitro-vanado-molybdic (reagent)

Prepare the following solutions

A) Solution of ammonium molybdate

Ammonium molybdate

100 g

Concentrated ammonium hydroxide (R)

10 ml

Distilled water

q.s.f.1000 ml

B) Solution of ammonium vanadate

Ammonium metavanadate

2.35 g

Distilled water

500 ml

Slightly heat to dissolve. After complete dissolution, cool and gradually add while shaking the following mixture:

Concentrated nitric acid (R)

7 ml

Distilled water

13 ml

Complete the volume to 1000 ml with distilled water. Mix.

To obtain the nitro-vanado-molybdic reagent, mix in a 500 ml graduated flask 67 ml of concentrated nitric acid (R), 100 ml of molybdic solution (A), 100 ml of nitro-vanadic solution (B) and adjust the volume to 500 ml. Mix.

Eriochrome black T in solution

Solution containing 0.2 g eriochrome black T in 100 ml of triethanolamine.

 

Oxalic (acid) in solution

Aqueous solution containing 5 g of crystallised acid oxalic C2O4H2.2H2O in 100 g of reagent.

 

Phenolphtalein in solution

Solution prepared with alcohol at 90% vol. containing 1 g de phenolphthalein in 100 ml of reagent.

Phosphoric (acid) solution at 85% (m/m)

Aqueous solution containing 85 g of orthophosphoric acid (H3PO4), ρ20 = 1.70, for 100 g.

Phosphoric (acid) solution at 25% (m/v)

Aqueous solution containing 25 g of phosphoric acid (H3PO4), ρ20 = 1.70, in 100 ml.

Phosphoric (acid) solution at 50% (m/m)

Aqueous solution containing 50 g of orthophosphoric acid (H3PO4), ρ20 = 1.70 in 100 g.

Phosphate (solution at 0.05 g of phosphorus per litre)

 

Potassium dihydrogenophosphate

Dissolve 4.392 g of monopotassium phosphate (KH2PO4) in a sufficient quantity of water to obtain 1 l. This solution contains 1 g of phosphorus per litre. Dilute to the twentieth to obtain the solution at 0.05 g per litre.

Lead (nitrate) in solution at 1 g and 0.01 g of lead per litre

Dissolve 1.60 g of lead nitrate Pb(NO3)2 in a sufficient quantity of water to obtain 1 l of solution at 1 g of lead per litre. This solution is diluted to the hundredth to obtain the solution at 0.01 g of lead per litre.

Lead (neutral acetate) in solution at 10% (m/m)

Aqueous solution containing 10 g of lead acetate (II) Pb(C4H6O4).3H2O in 100 g of reagent.

Potassium sulfite

Potassium (acetate) in solution at 5% (m/m)

Aqueous solution containing 5 g of crystallised potassium KC2H3O acetate in 100 g of reagent CH3CO2K.

Potassium (anhydrosulphite) K2S2O5 (formerly potassium disulphite) free from selenium.

To search for selenium in sulphur dioxide, potassium anhydrosulphite free from selenium should be used. To check the absence of selenium, proceed with the following test trial:

Weigh 2.55 g of the potassium anhydrosulphite sample, dissolve with heat in 7 ml of distilled water and 2 ml of concentrated hydrochloric acid (R). Allow to cool and add 3 ml of formaldehyde solute (R). Allow to stand 10 minutes. Place the tube in a water bath at 100°C and add 50 mg of the sample of pulverised potassium anhydrosulphite.

The total sample is 2.60 g of potassium anhydrosulphite corresponding to 1.50 g of sulphur dioxide. A pink coloration should not develop.

Potassium (anhydrosulphite) in solution at 2% (m/m)

Aqueous solution containing 2 g of crystallised potassium anhydrosulphite in 100 g of reagent.

 

Potassium (cyanide) in solution at 1 mg of hydrocyanic acid per litre

Prepare an aqueous solution containing 2.44 g of KCN per litre, dilute to 1/100 to obtain the titrating solution of 1 mg of hydrocyanic acid per litre.

Potassium (dichromate) at 1 g and 0.01 g of chrome per litre

Dissolve 2.8283 g of potassium dichromate K2Cr2O7 in a sufficient quantity of water to obtain 1 l of solution at 1 g of chrome per litre. This solution is diluted to the hundredth to obtain the solution at 0.01 g of chrome per litre.

Potassium (dichromate) in solution at 10% (m/m)

Aqueous solution containing 10 g of potassium dichromate in 100 g of reagent.

Potassium (hexacyanoferrate (II))/ potassium (ferrocyanide) in solution at 5% (m/m)

Aqueous solution containing 5 g of crystallised potassium K4Fe(CN)6.3H2O hexacyanoferrate in 100 g of reagent.

Potassium (hydroxide) at 40%

Dissolve 40 g of potassium hydroxide (KOH) in a sufficient quantity of water to obtain 100 ml.

Potassium (iodide) in iodine solution

Iodine-iodide solution - aqueous iodine solution (I2) in potassium iodide (KI).

In a tared flask with a glass stopper, introduce 2 g of iodine, 4 g of potassium iodide and about 10 g of water. Allow the dissolution to operate, then complete with water, the weight of 100 g.

Potassium (permanganate) in solution at 5% (m/m)

Aqueous solution containing 5 g of potassium permanganate (KMnO4) in 100 g of reagent.

Potassium (permanganate) in solution at 3% (m/m)

Aqueous solution containing 3 g of potassium permanganate in 100 g of reagent.

Potassium (permanganate) in solution at 2% (m/m)

Aqueous solution containing 2 g of potassium permanganate in 100 g of reagent.

Potassium (permanganate) in solution at 1% (m/m)

Aqueous solution containing 1 g of potassium permanganate in 100 g of reagent.

Potassium (permanganate) in solution at 0.2% (m/m)

Aqueous solution containing 0.2 g of potassium permanganate in 100 g of reagent.

Potassium (permanganate) in saturated solution

Saturated aqueous solution containing about 6 g of potassium permanganate in 100 g of reagent.

Potassium (permanganate) at 5 per 1000 (m/m)

Aqueous solution containing 5 g of potassium permanganate in 1000 g of reagent.

Potassium (permanganate) phosphoric solution

Dissolve 3 g of potassium permanganate (R) in a mixture of 15 ml of phosphoric acid (R) and 70 ml of water; complete to 100 ml with water.

Potassium (thiocyanate) in solution at 5% (m/m)

Aqueous solution containing 5 g of potassium thiocyanate KSCN in 100 g of reagent.

Pyridine-pyrazolone (reagent)

Bis(1-phenyl-3-methyl-5-pyrazolone). (F. 320°C) - Dissolve 17.4 g of 1-phenyl-3-methyl-5-pyrazolone in 100 ml of alcohol at 95% vol., add 25 g of freshly distilled phenylhydrazine, bring to the boil under reflux for 4 hours. The mixture is filtered hot and the precipitate washed several times with alcohol at 95% vol.

The boiling under reflux could be prolonged beyond 4 hours if the occurrence of yellow crystals is not very abundant after this time.

Preparation of reagent pyridine-pyrazolone. – In a 100 ml graduated flask, introduce 0.150 g of 1-phenyl-3-methyl-5-pyrazolone and dissolve in 50 ml of alcohol at 95% vol. distilled on potassium hydroxide; complete to 100 ml with distilled water.

On the other hand, weigh 20 mg of bis(1-phenyl-3-methyl-5-pyrazolone), and dissolve by prolonged shaking in 20 ml of pyridine.

Mix the two resulting solutions by pouring them in a yellow glass flask wrapped in black paper. Store in the refrigerator.

 

Quinine (sulphate) in solution at 0.1 mg per litre of sulphuric acid 0.05 M

Dissolve 0.100 g of quinine sulphate in a sufficient quantity of sulphuric acid 0.05 M to obtain 1 l. Dilute three times 1/10 this solution with a sulphuric acid solution 0.05 M to obtain the solution at 0.1 mg of quinine sulphate per litre.

Rosaniline (hydrochloride) in solution discoloured by sulphurous acid

In a mortar, pulverise 30 mg of pure rosaniline hydrochloride, then add 30 ml of alcohol at 95% vol. The dissolution is rapid and complete. On the other hand, in a 250 ml graduated flask, dissolve 8 g of potassium anhydrosulphite in about 150 ml of distilled water. Add the alcoholic solution of hydrochloride rosaniline, then 55 ml of hydrochloric acid solution 3 M and bring to the graduation line with water. The reagent must be completely discoloured in less than an hour. It is stable for several months.

Methyl red in solution

Alcohol solution at 90% vol. containing 0.10 g of methyl red in 50 ml of reagent.

Methyl red mixed indicator:

Solution in alcohol at 90% vol. containing 0.10 g of red methyl and 0.05 g of blue methylene in 10 ml of reagent.

Phenol red in solution

Heat 0.05 g of phenol red with 2.85 ml of sodium hydroxide solution 0.05 M and 5 ml of alcohol at 90% vol. To the solution obtained, add a sufficient quantity of alcohol at 20% vol. to obtain 250 ml.

Selenium (dioxide) in solution at 100 mg of selenium per litre

Grind 2 g of pure selenium dioxide (SeO2) and allow to stand for 24 hours in a desiccator for sulphuric acid. Weigh 1.4553 g of this dry dioxide and dissolve in a sufficient quantity of water to obtain 1 l of solution.

This solution contains 1 g of selenium per litre. Dilute 1/10 with distilled water to obtain the solution at 100 mg of selenium per litre.

Sodium (acetate)

NaC2H3O2.3H2O = 136.1.

The salt used as a reagent must be neutral.

Sodium (acetate) in solution at 10% (m/m)

Aqueous solution containing 10 g of sodium acetate NaC2H3O2.3H2O in 100 g of reagent.

Sodium (borate) in saturated solution

Saturated aqueous solution containing about 4 g of crystallised sodium borate for 100 g of solution. Sodium tertraborate Na2B4O7.

Sodium (neutral carbonate) in solution at 25% (m/m)

Aqueous solution containing 25 g of crystallised disodic carbonate at 10 H2O in 100 g of reagent Na2CO3.10H2O.

Sodium (diethyldithiocarbamate) in solution at 1% (m/v)

Dissolve 1 g of sodium diethyldithiocarbamate in a sufficient quantity of alcohol at 40% vol. to obtain 100 ml of solution (C2H5)2NCS2Na.3H2O.

Sodium (ethylenediaminetetraacetate) in solution 0.01 M

 

Sodium ethylenediaminetetraacetate

4.0 g

Magnesium chloride, MgCI2.6H2O

0.1 g

Water

q.s.f. 1000 ml

 

The titre of this solution must be checked and adjusted after titration by a calcium chloride solution 0.01 M obtained by dissolving 1 g of pure calcium carbonate in 25 g of concentrated hydrochloric acid (R) with 20 ml of water and by adjusting the volume to 1000 ml with distilled water.

Sodium (fluoride) in solution at 4% (m/m)

Aqueous solution containing 4 g of sodium fluoride (NaF) in 100 g of reagent. This solution is nearly saturated.

Sodium (hydroxide) in concentrated solution (caustic soda)

Aqueous solution with density 1.330 containing 30 g of sodium hydroxide (NaoH) in 100 g of solution.

Sodium (hydroxide) in diluted solution at 10% (m/m)

Aqueous solution containing 10 g of sodium hydroxide (NaoH) in 100 g of reagent.

Sodium (phosphate) in solution at 10% (m/m)

Aqueous solution containing 10 g of crystallised disodic phosphate in 100 g of reagent.

 

Sodium (pyrophosphate) at 1% (m/m)

Aqueous solution containing 1 g of crystallised tetrasodic pyrophosphate, Na4P2O7.10H2O, in 100 g of reagent.

Sodium (thiosulphate) in solution at 25% (m/v)

Aqueous solution containing 25 g of sodium thiosulphate (Na2S2O3) for 100 ml.

Hydrogen sulphide (acid) in saturated solution

Aqueous solution of saturated hydrogen sulphide acid. It contains about 3.8 g of H2S per litre. It is alterable in air.

Hydrogen sulphide (acid) solution at 1 g of sulphur per litre and at 0.01 g per litre

Dissolve 7.5 g of Na2S.9H2O in a sufficient quantity of water to obtain 1 l. This solution is diluted to a hundredth to obtain the solution at 0.01 g per litre (solutions rapidly oxidised by air).

Sulforesorcinic (reagent)

Dissolve 2 g of pure resorcinol in 100 ml of water and add 0.5 ml of concentrated sulphuric acid (R).

Sulphuric (acid) concentrated at 95% minimum

ρ20/4 = 1.83 to 1.84.  (H2SO4)

Sulphuric (acid) at 97% (m/m)

This absolutely colourless acid should not be able to be differentiated after heating at 120°C from an unheated control. It should be stored in flasks with emery stoppers. Its titre should be 97 1%.

 

Sulphuric (acid) at 25% (m/m)

ρ20/4 = 1.1808 approximately.

Aqueous solution of sulphuric acid containing about 25 g of acid H2SO4 in 100 g of reagent.

Sulphuric (acid) diluted at 10% (m/m)

ρ20/4 = 1.0682 approximately.

Aqueous solution of sulphuric acid containing about 10 g of acid H2SO4 in 100 g of reagent.

 

Sulphuric (acid) diluted at 5% (m/m)

Aqueous solution of sulphuric acid containing about 5 g of acid H2SO4 in 100 g of reagent.

Sulphuric (acid) free from nitrogen must satisfy the following test trial: nitrate. To 5 ml of water, carefully add 45 ml of sulphuric acid free from nitrogen, allow to cool to 40°C and add 8 mg of diphenylbenzidine. The solution is barely pink or pale blue.

Acetate buffer, purified, for search for zinc

Dissolve 136 g of sodium acetate in 440 ml of water, add 58 ml of concentrated acetic acid. Purify this solution by shaking with a dithizone solution at 125 mg per litre of chloroform.

Ammoniac buffer

 

Concentrated ammonium hydroxide

350 ml

Ammonium chloride

54 g

Distilled water

q.s.f. 1000 ml

Buffer pH 7.5

 

Monopotassium phosphate

94 g

Sodium hydroxide in molar solution

565 ml

Distilled water

q.s.f. 1 000 ml

Pure tannin

Tannin, called ether tannin or officinal tannin is extracted from the Aleppo gall.

It is in the form of a light mass, yellowish white, very soluble in water and alcohol at 90% vol. It is insoluble in ethylic ether. It must comply with the following test trials:

1. The aqueous tannin solution at 10% must be clear and have a very light yellow colour like white wine. The tannin solution at 10% in alcohol at 90% vol. must also be clear with hardly any colour.

A solution at 1 g of tannin in 5 g of water with its volume of alcohol at 90% vol. and half of its volume of ethylic ether, should give a clear solution (aqueous extract or alcoholic extract).

2. The officinal tannin must be combustible without leaving residue more than 0.05% (set mineral matters).

3. Desiccated at 100°C, the officinal tannin must not loose more than 12% in its weight (excess water). The anhydrous tannin content is calculated from this test trial. Its knowledge is necessary for the preparation of the solution at 4 per 1000.

Tannin in solution at 2% (m/m)

Aqueous solution containing 2 g of tannin in 100 g of reagent. It must be prepared extemporaneously.

Tannin in solution at 4% (m/v)

Dissolve a quantity of pure tannin containing 1 g of anhydrous tannin in a sufficient quantity of water to obtain 250 ml.

Tannin in solution at 10% (m/m)

Aqueous solution containing 10 g of tannin in 100 g of reagent.

Thioacetamide (reagent)

F 113°C

To 0.2 ml of aqueous thioacetamide solution at 40 g/l, add 1 ml of a mixture of 5 ml of water, 15 ml of sodium hydroxide 1 M and 20 ml of glycerol at 85% (m/m). Heat in a water bath at 100°C for 20 seconds. Prepare extemporaneously.

Uranyl (nitrate) in solution at 4% (m/m)

Solution containing 4 g of uranyl nitrate UO2(NO3)2.6H2O in 100 g of reagent.

Uranyl and magnesium (acetates) in hydro-alcoholic and acetic solution

Dissolve 32 g of crystallised uranyl acetate and 100 g of magnesium acetate in 300 ml of water, 20 ml of acetic acid and 500 ml of alcohol at 95% vol. by heating in a water bath at 100°C and by shaking; adjust the volume to 1 litre with water (distilled) and allow to stand 48 hours; decant or filter.

This reagent must be stored away from light. 2.5 ml of reagent must be used per milligramme of sodium to be precipitated and per millilitre of solution to be treated.

Phosphates, arseniates and fluorides must be absent from this solution. Heavy metals, iron (II) and alkaline-earth are not bothersome.

Bromocresol green in solution

Alcohol solution at 95% vol. containing 0.04 g of bromocresol green (3’,3’’,5’,5’’tetrabromo-m-cresolsulfonephtaleine) for 100 ml pf reagent.

Bromocresol green and methyl red in solution (mixed indicator)

Dissolve

Bromocresol green

0.04 g

Methyl red

0.06 g

in alcohol at 95% vol

100 ml

Add 2.5 ml of sodium hydroxide solution 0.1 M.

This indicator from red (pH 4.6) turns blue-green with pH 4.9. It is violet with pH 4.75.

Zinc in solution at 1 mg per litre

Dissolve 1 g of pure zinc in the minimum concentrated hydrochloric acid (R) by gently heating. Dilute the solution to 500 ml and neutralise by adding sodium carbonate until a light precipitate appears which disappears when a few drops of hydrochloric acid are added.

Dilute successively three times 1/10 when using.


[1] This list does not contain the titrated acid solutions, sodium hydroxide, iodine, silver nitrate, etc.

[2] The composition of reagents  « (R.As)” is indicated for determining arsenic.